3. For the triaxial states of stress shown in Figure Q3 below, find the absolute maximum...
please help me solve this whole mechanical design problem thanks Q3. (30 points) For the state of plane stress shown, Stresses, σ. σ2 (b) the orientation of the principal stresses, s, (c) the maximum in plane shearing stress, Tmar and (d) its orientation, p. (e) the normal stress at the plane of maximum shear stress, (1) sketch of the rotated plane element for the principal stresses and the rotated plane element for maximum shear stress similar to figure 1, below...
In the stress state shown in the element in the following figure, determine the maximum principal stress (a), the angle prin in which the element must be oriented so that the maximum principal stress, the maximum shear stress (max,z) and angle max in which the element must be oriented so that the maximum shear stress is present.
3. For each of the plane stress states listed below draw a Mohr's Circle diagram properly labeled, find the principal normal and shear stresses and determine the angle from the X- axis to di. Draw the principal stress element and the maximum shear stress element. (a) 0 = -8 MPa, ay = 7 MPa, Try = 6 MPa (CW) (b) 0 = 9 MPa, y = -6 MPa, Try = 3 MPa (CW) (c) 0:= -4 MPa, y = 12...
Q3 The maximum shear stress in segment BC (b) of the beam shown in the figure is equal to: 12 KN 300 mm B 200 m 1.5 m Select one: e a. 1.071 MPa b. 0.383 MPa C. 0.48 MPa d. 0.18 MPa e. 0.689 MPa f. 0.765 MPa
Question 3 (1) Figure Q3(a) shows the stresses at a point in a structure. Using the Mohr's circle, determine the maximum in-plane shear stress of the point and shown it on a sketch of a properly oriented stress element. 12 marks) 50 MPa 30 MPa 30 MPa Figure Q3(a) (2) The 50-mm-diameter solid shaft shown in Figure Q3(b) is fixed at B and subject to the couple forces at the top through a rigid wrench. Determine the maximum shear stres...
2) Given the stress shown on the figure below: 8 MPa 3 MPa - - 5 MPa 3 MPа Note that this plot is not to scale Required: a. Evaluate Oa and Ta when a = 25° b. Evaluate o, and 03 c. Find the maximum shear stress and the orientation of the plane in which it acts. d. Found the normal stress associated with the maximum shear stress
Problem 4: The stress at a point is shown on the element. Determine the principal stress and the absolute maximum shear stress using Mohr's circle y 120psi 70 30 psi
For the 3-D stress element below the normal stress in the z-direction is a principal stress. 1) Sketch the 3-D Mohr's Circles and calculate the three Principal Stresses 01, 02, and 03 2) Calculate and show on the circles the Maximum Absolute Shear Stress Tabs,max Note: since the normal stress in the z-direction is a principal stress, you just need to find out if it is 01, 02, or 03 N 5 MPa 10 MPa x -5 MPa 5 MPa...
3) The element is subjected to the state of stress shown below. Write the stress in a matrix representation form. Determine the maximum shear stress and the maximum normal stress acting on this element. You may use the Mohr's circle for ease of solution. (20 points) 0 MP 20 MP s0 MPa 0 MP 20 MP 30 MPa
Part A - Normal Stresses, Shear, and Angles The stress element shown in the figure below is subjected to the indicated stresses of magnitude 0,1 = 35 MPa, oyl = 57 MPa, and Tryl = 41 MPa Oy Txy Determine the principal normal stresses 01 and 02, the maximum in-plane shear stress Tmax,in-plane, and the angles at which they occur relative to the given stress element. Follow the sign convention. Suppose that when the element is oriented at an angle...